In this work, a topology optimization procedure is proposed and applied to the TEAM 25 problem, i.e., a model of a die press with an electromagnet for orientation of magnetic powder. The shape of the press is described as a free discretized profile, and its relation to the flux density in the cavity is simulated by finite element analysis (FEA) and learned by a deep neural network (DNN) model. The DNN is used as a surrogate model for optimization, aiming to obtain a desired flux density distribution in the cavity. Results are promising, as better accuracy is obtained with respect to the full FEA-based optimization approach with the reduced time cost. Once trained, the surrogate model can be used to efficiently solve a whole family of proble...
The development of technologies for the additive manufacturing, in particular of metallic materials,...
The development of technologies for the additive manufacturing, in particular of metallic materials,...
The problem of Topology Optimization aims to solve the question of the optimal material distribution...
In this work, a topology optimization procedure is proposed and applied to the TEAM 25 problem, i.e....
In this work a novel approach is presented for topology optimization of low frequency electromagneti...
The use of behavioral models based on deep learning (DL) to accelerate electromagnetic field computa...
Topology optimization problems pose substantial requirements in computing resources, which become pr...
In this work a novel approach is presented for topology optimization of electromagnetic devices. In ...
Physics-Informed Neural Networks (PINNs) have recently gained increasing attention in the field of t...
Powerful gradient-free topology optimization methods are needed for structural design concerning com...
Physics-Informed Neural Networks (PINNs) have recently attracted exponentially increasing attention ...
Traditional structural topology optimization process depends on series of finite element analysis (F...
Topology optimization is a computationally expensive process, especially when complicated designs ar...
This paper explores the possibilities of applying physics-informed neural networks (PINNs) in topolo...
Due to the inherent nonlinear and sophisticated nature of superconducting wires/tapes, magnetic fiel...
The development of technologies for the additive manufacturing, in particular of metallic materials,...
The development of technologies for the additive manufacturing, in particular of metallic materials,...
The problem of Topology Optimization aims to solve the question of the optimal material distribution...
In this work, a topology optimization procedure is proposed and applied to the TEAM 25 problem, i.e....
In this work a novel approach is presented for topology optimization of low frequency electromagneti...
The use of behavioral models based on deep learning (DL) to accelerate electromagnetic field computa...
Topology optimization problems pose substantial requirements in computing resources, which become pr...
In this work a novel approach is presented for topology optimization of electromagnetic devices. In ...
Physics-Informed Neural Networks (PINNs) have recently gained increasing attention in the field of t...
Powerful gradient-free topology optimization methods are needed for structural design concerning com...
Physics-Informed Neural Networks (PINNs) have recently attracted exponentially increasing attention ...
Traditional structural topology optimization process depends on series of finite element analysis (F...
Topology optimization is a computationally expensive process, especially when complicated designs ar...
This paper explores the possibilities of applying physics-informed neural networks (PINNs) in topolo...
Due to the inherent nonlinear and sophisticated nature of superconducting wires/tapes, magnetic fiel...
The development of technologies for the additive manufacturing, in particular of metallic materials,...
The development of technologies for the additive manufacturing, in particular of metallic materials,...
The problem of Topology Optimization aims to solve the question of the optimal material distribution...